Aethotaxis mitopteryx: Population traits

at T = 0.9 °C with background hazards for embryo, larva, juv, adult: 0, 0, 0, 0 1/d

Ln survival probability as function of age, with (dashed) and without (solid) thinning at max (red) and min (blue) scaled functional response for females.
Ln survivor function of the stable age distribution as function of age, with (dashed) and without (solid) thinning at max (red) and min (blue) scaled functional response for females.
model abj f_min f_max date: 2024/02/28
symbol units thinning falsethinning true thinning falsethinning true description
femalemale femalemale femalemale femalemale
f - 0.285383 0.285383 0.285383 0.285383 1 1 1 1 scaled functional response
r 1/d 0 0 0 0 0.0044444 0.0044444 0.000873715 0.000873715 spec pop growth rate
t2 d NaN NaN NaN NaN 155.96 155.96 793.333 793.333 population doubling time
a_b d 99.3089 95.3039 99.3089 95.3039 92.9302 91.5597 92.9302 91.5597 age at birth
t_j d 79.9418 64.0482 79.9418 64.0482 56.4516 52.5552 56.4516 52.5552 time since birth at metam
t_p d 8533.54 1732.87 8533.54 1732.87 1186.27 998.342 1186.27 998.342 time since birth at puberty
S_b - 1 1 1 1 1 1 1 1 survival probability at birth
S_j - 0.999999 1 0.224618 0.211366 0.999999 1 0.205545 0.202708 survival probability at metam
S_p - 0.999999 0.999999 0.17951 0.135569 0.999999 1 0.115001 0.104596 survival probability at puberty
theta_0b - 0.00763217 0.00580283 0.323122 0.474763 0.338313 0.334251 0.676682 0.693478 frac of ind that is embryo
theta_bj - 0.0061458 0.00390125 0.135098 0.161964 0.146826 0.138678 0.194591 0.18784 frac of ind between b and j
theta_jp - 0.00148891 0.00190382 0.0126498 0.0263344 0.0770576 0.0838881 0.0367515 0.038855 frac of ind between j and p
theta_pi - 0.984733 0.988392 0.52913 0.336938 0.437803 0.443183 0.0919756 0.0798269 frac of ind that is adult
L_bi cm 0.730973 1.38065 0.552996 0.765595 0.411991 0.457404 0.258787 0.258119 mean structural length of post-natals
L2_bi cm^2 0.543874 1.95456 0.379591 0.949564 0.25363 0.329441 0.154382 0.169951 mean squared structural length of post-natals
L3_bi cm^3 0.407673 2.79388 0.277045 1.30956 0.207503 0.328371 0.181907 0.259504 mean cubed structural length of post-natals
Ww_bi g 1.82759 21.0679 1.24199 9.87505 2.74 7.85436 2.40202 6.20713 mean wet weight of post-natals
L_pi cm 0.735566 1.38787 0.672034 1.11879 0.542634 0.605901 0.564874 0.594943 mean structural length of adults
L2_pi cm^2 0.547937 1.96589 0.480967 1.4698 0.370074 0.480904 0.49274 0.593784 mean squared structural length of adults
L3_pi cm^3 0.410811 2.81026 0.353783 2.03988 0.311304 0.490731 0.631771 0.98712 mean cubed structural length of adults
Ww_pi g 1.84166 21.1915 1.586 15.3822 4.11065 11.7379 8.34228 23.6111 mean wet weight of adults
R 1/d 0.019005 1.65946 0 1.13855 0 0.0510022 0.129305 0.167105 mean reproduction rate of adults
J_X g/d 0.0140127 0.0965078 0.00976246 0.0468288 0.0235131 0.0576676 0.0141389 0.0293911 mean ingestion rate of wet food by post-natals
Y_PX mol/mol 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 yield of faeces on food
Y_VX mol/mol 0 0 0 0 0.0392219 0.0253073 0.011241 0.00771433 yield of living structure on food
Y_VX_d mol/mol 0.00244276 0.00197307 0.00661883 0.00533755 1.39063e-06 4.77719e-07 0.0218055 0.0150667 yield of dead structure on food
Y_EX mol/mol 0 0 0 0 0.478688 0.580024 0.137192 0.176806 yield of living reserve on food
Y_EX_d mol/mol 0.0085081 0.0129053 0.0230533 0.0349116 1.69721e-05 1.09489e-05 0.266128 0.345316 yield of dead reserve on food
Y_CX mol/mol 0.879674 0.875747 0.860953 0.850376 0.372697 0.285283 0.454259 0.345722 yield of CO2 on food
Y_HX mol/mol 0.632877 0.630051 0.619408 0.611798 0.268135 0.205245 0.326814 0.248728 yield of H2O on food
Y_OX mol/mol -0.956646 -0.952374 -0.936286 -0.924784 -0.405308 -0.310245 -0.494006 -0.375973 yield of O2 on food
Y_NX mol/mol 0.131951 0.131362 0.129143 0.127556 0.0559046 0.0427924 0.0681388 0.0518583 yield of N-waste on food
mu_TX J/mol 466599 464416 456511 450630 189601 140827 234151 173943 yield of heat on food

Remarks

  • Reprod-code O applies. Sex ratio is assumed to be 1:1. Parameters of male and female differ.
  • Buffer handling rule: release each egg as soon as reproduction buffer allows
  • Weights of adults do not include reproduction buffer